A greenhouse experlment was performed In order to Investigate the effects of dlfferent levels of water stress on leaf water potentlal (ψw), stomatal resistance (rs), protein content and chlorophyll (Chl) conten...A greenhouse experlment was performed In order to Investigate the effects of dlfferent levels of water stress on leaf water potentlal (ψw), stomatal resistance (rs), protein content and chlorophyll (Chl) content of tomato plants (Lycoperslcon esculentum Mill. cv. Nlkita). Water stress was Induced by addlng polyethylene glycol (PEG 6 000) to the nutrlent solution to reduce the osmotlc potential (ψs). We Investlgated the behavlor of antl-oxldant enzymes, such as catalase (CAT) and superoxide dlsmutase (SOD), durlng the development of water stress. Moderate and severe water stress (i.e. ψs= -0.51 and -1.22 MPa, respectlvely) caused a decrease In ψw for all treated (water-stressed) plants compared with control plants, wlth the reductlon belng more pronounced for severely stressed plants. In addltion, rs was slgnlflcantly affected by the Induced water stress and a decrease in leaf soluble protelns and Chl content was observed. Whereas CAT actlvlty remained constant, SOD actlvlty was increased in water-stressed plants compared wlth unstressed plants. These results Indicate the possible role of SOD as an anti-oxidant protector system for plants under water stress condltlons. Moreover, It suggests the possibllity of using this enzyme as an addltional screening crlterlon for detecting water stress in plants.展开更多
基金supported by the National Natural Science Foundation of China(30424813)Science Publication Foundation of the Chinese Academy of Sciences
文摘A greenhouse experlment was performed In order to Investigate the effects of dlfferent levels of water stress on leaf water potentlal (ψw), stomatal resistance (rs), protein content and chlorophyll (Chl) content of tomato plants (Lycoperslcon esculentum Mill. cv. Nlkita). Water stress was Induced by addlng polyethylene glycol (PEG 6 000) to the nutrlent solution to reduce the osmotlc potential (ψs). We Investlgated the behavlor of antl-oxldant enzymes, such as catalase (CAT) and superoxide dlsmutase (SOD), durlng the development of water stress. Moderate and severe water stress (i.e. ψs= -0.51 and -1.22 MPa, respectlvely) caused a decrease In ψw for all treated (water-stressed) plants compared with control plants, wlth the reductlon belng more pronounced for severely stressed plants. In addltion, rs was slgnlflcantly affected by the Induced water stress and a decrease in leaf soluble protelns and Chl content was observed. Whereas CAT actlvlty remained constant, SOD actlvlty was increased in water-stressed plants compared wlth unstressed plants. These results Indicate the possible role of SOD as an anti-oxidant protector system for plants under water stress condltlons. Moreover, It suggests the possibllity of using this enzyme as an addltional screening crlterlon for detecting water stress in plants.
